/* vim:set ts=2 sw=2 sts=2 et cindent: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "DirectShowUtils.h" #include "dmodshow.h" #include "wmcodecdsp.h" #include "dmoreg.h" #include "nsAutoPtr.h" #include "mozilla/ArrayUtils.h" #include "mozilla/RefPtr.h" #include "nsPrintfCString.h" #define WARN(...) NS_WARNING(nsPrintfCString(__VA_ARGS__).get()) namespace mozilla { #if defined(PR_LOGGING) // Create a table which maps GUIDs to a string representation of the GUID. // This is useful for debugging purposes, for logging the GUIDs of media types. // This is only available when logging is enabled, i.e. not in release builds. struct GuidToName { const char* name; const GUID guid; }; #pragma push_macro("OUR_GUID_ENTRY") #undef OUR_GUID_ENTRY #define OUR_GUID_ENTRY(name, l, w1, w2, b1, b2, b3, b4, b5, b6, b7, b8) \ { #name, {l, w1, w2, {b1, b2, b3, b4, b5, b6, b7, b8}} }, static const GuidToName GuidToNameTable[] = { #include }; #pragma pop_macro("OUR_GUID_ENTRY") const char* GetDirectShowGuidName(const GUID& aGuid) { const size_t len = ArrayLength(GuidToNameTable); for (unsigned i = 0; i < len; i++) { if (IsEqualGUID(aGuid, GuidToNameTable[i].guid)) { return GuidToNameTable[i].name; } } return "Unknown"; } #endif // PR_LOGGING void RemoveGraphFromRunningObjectTable(DWORD aRotRegister) { nsRefPtr runningObjectTable; if (SUCCEEDED(GetRunningObjectTable(0, getter_AddRefs(runningObjectTable)))) { runningObjectTable->Revoke(aRotRegister); } } HRESULT AddGraphToRunningObjectTable(IUnknown *aUnkGraph, DWORD *aOutRotRegister) { HRESULT hr; nsRefPtr moniker; nsRefPtr runningObjectTable; hr = GetRunningObjectTable(0, getter_AddRefs(runningObjectTable)); NS_ENSURE_TRUE(SUCCEEDED(hr), hr); const size_t STRING_LENGTH = 256; WCHAR wsz[STRING_LENGTH]; StringCchPrintfW(wsz, STRING_LENGTH, L"FilterGraph %08x pid %08x", (DWORD_PTR)aUnkGraph, GetCurrentProcessId()); hr = CreateItemMoniker(L"!", wsz, getter_AddRefs(moniker)); NS_ENSURE_TRUE(SUCCEEDED(hr), hr); hr = runningObjectTable->Register(ROTFLAGS_REGISTRATIONKEEPSALIVE, aUnkGraph, moniker, aOutRotRegister); NS_ENSURE_TRUE(SUCCEEDED(hr), hr); return S_OK; } const char* GetGraphNotifyString(long evCode) { #define CASE(x) case x: return #x switch(evCode) { CASE(EC_ACTIVATE); // A video window is being activated or deactivated. CASE(EC_BANDWIDTHCHANGE); // Not supported. CASE(EC_BUFFERING_DATA); // The graph is buffering data, or has stopped buffering data. CASE(EC_BUILT); // Send by the Video Control when a graph has been built. Not forwarded to applications. CASE(EC_CLOCK_CHANGED); // The reference clock has changed. CASE(EC_CLOCK_UNSET); // The clock provider was disconnected. CASE(EC_CODECAPI_EVENT); // Sent by an encoder to signal an encoding event. CASE(EC_COMPLETE); // All data from a particular stream has been rendered. CASE(EC_CONTENTPROPERTY_CHANGED); // Not supported. CASE(EC_DEVICE_LOST); // A Plug and Play device was removed or has become available again. CASE(EC_DISPLAY_CHANGED); // The display mode has changed. CASE(EC_END_OF_SEGMENT); // The end of a segment has been reached. CASE(EC_EOS_SOON); // Not supported. CASE(EC_ERROR_STILLPLAYING); // An asynchronous command to run the graph has failed. CASE(EC_ERRORABORT); // An operation was aborted because of an error. CASE(EC_ERRORABORTEX); // An operation was aborted because of an error. CASE(EC_EXTDEVICE_MODE_CHANGE); // Not supported. CASE(EC_FILE_CLOSED); // The source file was closed because of an unexpected event. CASE(EC_FULLSCREEN_LOST); // The video renderer is switching out of full-screen mode. CASE(EC_GRAPH_CHANGED); // The filter graph has changed. CASE(EC_LENGTH_CHANGED); // The length of a source has changed. CASE(EC_LOADSTATUS); // Notifies the application of progress when opening a network file. CASE(EC_MARKER_HIT); // Not supported. CASE(EC_NEED_RESTART); // A filter is requesting that the graph be restarted. CASE(EC_NEW_PIN); // Not supported. CASE(EC_NOTIFY_WINDOW); // Notifies a filter of the video renderer's window. CASE(EC_OLE_EVENT); // A filter is passing a text string to the application. CASE(EC_OPENING_FILE); // The graph is opening a file, or has finished opening a file. CASE(EC_PALETTE_CHANGED); // The video palette has changed. CASE(EC_PAUSED); // A pause request has completed. CASE(EC_PLEASE_REOPEN); // The source file has changed. CASE(EC_PREPROCESS_COMPLETE); // Sent by the WM ASF Writer filter when it completes the pre-processing for multipass encoding. CASE(EC_PROCESSING_LATENCY); // Indicates the amount of time that a component is taking to process each sample. CASE(EC_QUALITY_CHANGE); // The graph is dropping samples, for quality control. //CASE(EC_RENDER_FINISHED); // Not supported. CASE(EC_REPAINT); // A video renderer requires a repaint. CASE(EC_SAMPLE_LATENCY); // Specifies how far behind schedule a component is for processing samples. //CASE(EC_SAMPLE_NEEDED); // Requests a new input sample from the Enhanced Video Renderer (EVR) filter. CASE(EC_SCRUB_TIME); // Specifies the time stamp for the most recent frame step. CASE(EC_SEGMENT_STARTED); // A new segment has started. CASE(EC_SHUTTING_DOWN); // The filter graph is shutting down, prior to being destroyed. CASE(EC_SNDDEV_IN_ERROR); // A device error has occurred in an audio capture filter. CASE(EC_SNDDEV_OUT_ERROR); // A device error has occurred in an audio renderer filter. CASE(EC_STARVATION); // A filter is not receiving enough data. CASE(EC_STATE_CHANGE); // The filter graph has changed state. CASE(EC_STATUS); // Contains two arbitrary status strings. CASE(EC_STEP_COMPLETE); // A filter performing frame stepping has stepped the specified number of frames. CASE(EC_STREAM_CONTROL_STARTED); // A stream-control start command has taken effect. CASE(EC_STREAM_CONTROL_STOPPED); // A stream-control stop command has taken effect. CASE(EC_STREAM_ERROR_STILLPLAYING); // An error has occurred in a stream. The stream is still playing. CASE(EC_STREAM_ERROR_STOPPED); // A stream has stopped because of an error. CASE(EC_TIMECODE_AVAILABLE); // Not supported. CASE(EC_UNBUILT); // Send by the Video Control when a graph has been torn down. Not forwarded to applications. CASE(EC_USERABORT); // The user has terminated playback. CASE(EC_VIDEO_SIZE_CHANGED); // The native video size has changed. CASE(EC_VIDEOFRAMEREADY); // A video frame is ready for display. CASE(EC_VMR_RECONNECTION_FAILED); // Sent by the VMR-7 and the VMR-9 when it was unable to accept a dynamic format change request from the upstream decoder. CASE(EC_VMR_RENDERDEVICE_SET); // Sent when the VMR has selected its rendering mechanism. CASE(EC_VMR_SURFACE_FLIPPED); // Sent when the VMR-7's allocator presenter has called the DirectDraw Flip method on the surface being presented. CASE(EC_WINDOW_DESTROYED); // The video renderer was destroyed or removed from the graph. CASE(EC_WMT_EVENT); // Sent by the WM ASF Reader filter when it reads ASF files protected by digital rights management (DRM). CASE(EC_WMT_INDEX_EVENT); // Sent when an application uses the WM ASF Writer to index Windows Media Video files. CASE(S_OK); // Success. CASE(VFW_S_AUDIO_NOT_RENDERED); // Partial success; the audio was not rendered. CASE(VFW_S_DUPLICATE_NAME); // Success; the Filter Graph Manager modified a filter name to avoid duplication. CASE(VFW_S_PARTIAL_RENDER); // Partial success; some of the streams in this movie are in an unsupported format. CASE(VFW_S_VIDEO_NOT_RENDERED); // Partial success; the video was not rendered. CASE(E_ABORT); // Operation aborted. CASE(E_OUTOFMEMORY); // Insufficient memory. CASE(E_POINTER); // Null pointer argument. CASE(VFW_E_CANNOT_CONNECT); // No combination of intermediate filters could be found to make the connection. CASE(VFW_E_CANNOT_RENDER); // No combination of filters could be found to render the stream. CASE(VFW_E_NO_ACCEPTABLE_TYPES); // There is no common media type between these pins. CASE(VFW_E_NOT_IN_GRAPH); default: return "Unknown Code"; }; #undef CASE } HRESULT CreateAndAddFilter(IGraphBuilder* aGraph, REFGUID aFilterClsId, LPCWSTR aFilterName, IBaseFilter **aOutFilter) { NS_ENSURE_TRUE(aGraph, E_POINTER); NS_ENSURE_TRUE(aOutFilter, E_POINTER); HRESULT hr; nsRefPtr filter; hr = CoCreateInstance(aFilterClsId, nullptr, CLSCTX_INPROC_SERVER, IID_IBaseFilter, getter_AddRefs(filter)); if (FAILED(hr)) { // Object probably not available on this system. WARN("CoCreateInstance failed, hr=%x", hr); return hr; } hr = aGraph->AddFilter(filter, aFilterName); if (FAILED(hr)) { WARN("AddFilter failed, hr=%x", hr); return hr; } filter.forget(aOutFilter); return S_OK; } HRESULT AddMP3DMOWrapperFilter(IGraphBuilder* aGraph, IBaseFilter **aOutFilter) { NS_ENSURE_TRUE(aGraph, E_POINTER); NS_ENSURE_TRUE(aOutFilter, E_POINTER); HRESULT hr; // Create the wrapper filter. nsRefPtr filter; hr = CoCreateInstance(CLSID_DMOWrapperFilter, nullptr, CLSCTX_INPROC_SERVER, IID_IBaseFilter, getter_AddRefs(filter)); if (FAILED(hr)) { WARN("CoCreateInstance failed, hr=%x", hr); return hr; } // Query for IDMOWrapperFilter. nsRefPtr dmoWrapper; hr = filter->QueryInterface(IID_IDMOWrapperFilter, getter_AddRefs(dmoWrapper)); if (FAILED(hr)) { WARN("QueryInterface failed, hr=%x", hr); return hr; } hr = dmoWrapper->Init(CLSID_CMP3DecMediaObject, DMOCATEGORY_AUDIO_DECODER); if (FAILED(hr)) { // Can't instantiate MP3 DMO. It doesn't exist on Windows XP, we're // probably hitting that. Don't log warning to console, this is an // expected error. WARN("dmoWrapper Init failed, hr=%x", hr); return hr; } // Add the wrapper filter to graph. hr = aGraph->AddFilter(filter, L"MP3 Decoder DMO"); if (FAILED(hr)) { WARN("AddFilter failed, hr=%x", hr); return hr; } filter.forget(aOutFilter); return S_OK; } // Match a pin by pin direction and connection state. HRESULT MatchUnconnectedPin(IPin* aPin, PIN_DIRECTION aPinDir, bool *aOutMatches) { NS_ENSURE_TRUE(aPin, E_POINTER); NS_ENSURE_TRUE(aOutMatches, E_POINTER); // Ensure the pin is unconnected. RefPtr peer; HRESULT hr = aPin->ConnectedTo(byRef(peer)); if (hr != VFW_E_NOT_CONNECTED) { *aOutMatches = false; return hr; } // Ensure the pin is of the specified direction. PIN_DIRECTION pinDir; hr = aPin->QueryDirection(&pinDir); NS_ENSURE_TRUE(SUCCEEDED(hr), hr); *aOutMatches = (pinDir == aPinDir); return S_OK; } // Return the first unconnected input pin or output pin. TemporaryRef GetUnconnectedPin(IBaseFilter* aFilter, PIN_DIRECTION aPinDir) { RefPtr enumPins; HRESULT hr = aFilter->EnumPins(byRef(enumPins)); NS_ENSURE_TRUE(SUCCEEDED(hr), nullptr); // Test each pin to see if it matches the direction we're looking for. RefPtr pin; while (S_OK == enumPins->Next(1, byRef(pin), nullptr)) { bool matches = FALSE; if (SUCCEEDED(MatchUnconnectedPin(pin, aPinDir, &matches)) && matches) { return pin; } } return nullptr; } HRESULT ConnectFilters(IGraphBuilder* aGraph, IBaseFilter* aOutputFilter, IBaseFilter* aInputFilter) { RefPtr output = GetUnconnectedPin(aOutputFilter, PINDIR_OUTPUT); NS_ENSURE_TRUE(output, E_FAIL); RefPtr input = GetUnconnectedPin(aInputFilter, PINDIR_INPUT); NS_ENSURE_TRUE(output, E_FAIL); return aGraph->Connect(output, input); } } // namespace mozilla // avoid redefined macro in unified build #undef WARN